RU29301U1 - SEWAGE TREATMENT PLANT - Google Patents

Description

2002134211

M.C. C02F 3/12

SEWAGE TREATMENT PLANT

The utility model relates to the technology of wastewater treatment under anaerobic and aerobic conditions, in particular, to the biochemical treatment of organic, nitrogen-containing and phosphorus-containing substances, and can be used for biochemical treatment and purification of domestic and industrial wastewater similar in composition.

A known installation for treating wastewater 1, comprising an aeration tank, an aerobic stabilizer and a centrally located secondary sump, traps with drainage trays installed in the aerobic stabilizer trap with the ability to move around a horizontal axis, an inclined shield with a hinge, and a pipeline horizontally located at the top of the installation connecting the drainage tray of the aerobic stabilizer and aeration tank.

The disadvantage of this installation is the low efficiency of wastewater treatment.

A known installation for wastewater treatment and treatment of sludge 2, containing a primary sump with pipelines for supplying wastewater and drainage of clarified water and sludge, aeration tanks of the first and second stages with aerators, frames with a filler made of nylon fiber and fiberglass in the form of "ruffs, mesh with a loading box, thin-walled modules, as well as compressed air pipelines, aeration tanks aerators are located along and across the corridors of the latter, scaffolds with a filler are placed in the primary clarifier with it to the aerators in the aeration tank of the second stage mesh ducts aerators placed over the aeration tank of the first stage, and thin-layer modules in the sump of the second stage, the sump of the second stage is connected to a conduit with a primary clarifier.

The disadvantage of such a wastewater treatment system is also the insufficient efficiency of wastewater treatment and a large amount of equipment.

a facility for deep biological treatment of domestic wastewater 3, comprising a receiving and distribution chamber with a receiving manifold, a chamber with a receiving manifold, a pressure damping chamber connected to hydrocyclone blocks connected to mobile sand collecting tanks, an air blower station with compressors, a pump station technological circuits, a chlorination station with electrolysers, connected by pipelines to the water supply network and contact tank, valves, main pipelines and air odes, averager, first and second stage bioreactors, each of which consists of sections, a sludge treatment unit with a filtering device, a sump and a dehydrated sludge collector, a pump and a sludge compactor, while the inlet of the averager in its upper part is connected by a sewage pipe forgiving mechanical cleaning with a main pipeline of hydrocyclone blocks and a supra-water supply pipeline from a sludge treatment unit, air ducts from the water inlet were introduced into the bottom of the averager, the bioreaytor section and the contact tank of the air conditioning station, the output of the averager through one pump is connected to the inlets of the upper parts of the first sections of the bioreactors, and on the other hand to the pressure pipe of the sludge water of the sediment processing unit, the inlet of the first section of the first stage bioreactor is additionally connected by an intake pipe to the averager sections of both bioreactors are connected by suction pipelines through the pump station to the pressure pipe of regeneration water, and the sediment processing unit is connected in its lower part with suction pipe of superficial water and mineralized sludge.

The disadvantage of this installation is the complexity of the treatment plant, due to the large number of equipment, as well as the insufficient degree of wastewater treatment from nitrogen-containing substances.

The technical result, which consists in eliminating these drawbacks, is achieved in the proposed installation for wastewater treatment, containing a water head quenching chamber, a water flow averager, aeration tank, a settling tank, a loading filter and a disinfectant, partitions, pipelines and pumps, while the sewage supply pipe is connected with the inlet of the averager of the water flow, and the pipeline for the removal of purified water is connected to

the outlet of the disinfectant, in that the quench chamber is located in the averager of the water flow, the aeration tank is connected through a thin-layer sludge separator to the sump, which is connected through a direct overflow in the corresponding partition with a filter connected to the disinfectant, while the averager of the water flow is equipped with a hydraulic mixing system including the first pump, the corresponding pipelines and a water ejector, the aeration tank is equipped with an aeration system including a second pump with the corresponding pipeline E and water-air ejector.

In the proposed installation, the technical result is also achieved by the fact that in the hydraulic mixing system, the inlet of the first circulation pump is connected to the suction pipe for withdrawing wastewater from the averager, and the outlet of the specified pump is connected to a pipeline for returning part of the wastewater to the averager and a pipe for supplying wastewater to the aeration tank; the first water meter is installed on the water supply pipe from the averager to the aeration tank; in the aeration system, the inlet of the second circulation pump is connected to the suction collector, to which the sludge recirculation pipe from the sump and the wash water pipe connected to the filter outlet are connected; in the aeration system, a discharge pipe for excess sludge and a pipe for supplying a part of the sludge to the averager are connected to the pressure pipe of the second circulation pump.

In addition, a cyclone device is installed between the filter and the disinfectant in the installation, which allows saturating the purified water with oxygen, as well as improving the conditions for subsequent disinfection in the disinfectant.

At the same time, the installation contains sand traps located in the averager, and a trellised container is installed in the damping chamber of the water pressure, which provides preliminary water purification from debris and coarse fractions at the inlet.

In the proposed installation, a recirculation pump is connected to the suction manifold of the second circulation pump, control elements, for example, valves, are installed on the air nozzles of the water-air ejectors, and a second water meter is installed in front of the recirculating sludge supply pipes and averager, which improves operating conditions.

The essence of the utility model is illustrated by the drawing, which shows the technological block diagram of the installation.

The proposed wastewater treatment plant contains a water flow averager 1, aeration tank 2, a thin-layer sludge separator 3, a settling tank 4, a filter 5, a disinfectant 6, circulation pumps 7 and 8 and a piping system with shut-off and control valves.

In the averager there is a quenching chamber 9 of water pressure with a trellised container 10 and sand traps 11.

The averager 1 is equipped with a hydraulic mixing system, including a first circulation pump 7, a suction pipe 12, a pressure pipe 13 for returning the main part of the water to averager 1 through an air-air ejector 14 and a pressure pipe 15 for supplying a metered volume of wastewater to aeration tank 2 through a first water meter 16.

Aerotank 2 is equipped with an aeration system, including a second circulation pump 8, a suction manifold 17 and a pressure collector 18.

The suction manifold 17 is connected through the pipe 19 to the aeration tank 2, through the pipe 20 to the sump 4, through the pipe 21 with the drain pipe 22 of the filter 5 and through the pipe 23 with the recirculation pump 24.

The pressure collector 18 is connected through the pipeline 25 and the air ejector 26 to the aeration tank 2, through the pipe 27, the second water meter 28 installed on it, and the pipe 29 with the averager 1, and also through the pipe 30 with the sludge collector (not shown), through the pipe 31 with aeration tank 2 and through a pipe 32 with a recirculation pump 24.

The aeration tank 2 is connected to the sump 4 through a thin-layer sludge separator, the entrance 33 of which is located in the aeration tank 2, and the outlet 34 is in the sump 4.

The sump 4 through the overflow 35 in the partition 36 is connected to a filter 5, which is connected through a drain pipe 22 and a pipe 37 to a cyclone device 38, the output of which is connected to a disinfectant 6.

On the air nozzles of the water-air ejectors 14 and 26, control elements are installed - valves 41 and 42.

Sand traps 11 are connected via pipelines 43 to a sand receiver (not shown).

On the pipelines 29, 13.15, 31, 30, 32, 18, 25, 19, 17, 23, 20, 21, 37, shut-off and control process valves 45-58 are installed.

Installation works as follows.

Wastewater from a sewage pumping station (not shown) or by gravity enters through a pipe 39 into the chamber 9 of the quenching of water pressure with placed in the lattice container 10.

In a trellised container 10, designed to purify water from debris and coarse impurities, suspended solids larger than 5 mm are retained, from where they are manually removed into a garbage container (not shown in the drawing).

From the pressure quenching chamber, the waste water enters two vertical sand traps 11 where sand particles 0.15-0.20 mm in size are separated.

Sand from the sand traps 11 is periodically removed by hydrostatic pressure through pipelines 43 to the sand receiver.

Purified from coarse mechanical impurities, the water enters the averager 1, designed to eliminate the temporary unevenness of the flow of wastewater to biological treatment.

To prevent sedimentation of suspended substances, the averager 1 is equipped with a hydraulic mixing system consisting of a first circulation pump 7, a suction 12 and a pressure pipe 13 with a valve 46 and with a water-air ejector 14 having an air valve 41.

Through the pressure pipe 15 from the first circulation pump 7, a certain amount of wastewater equal to the hourly average flow is supplied through the valve 47 and the water meter 16 to the aeration tank 2.

To provide the aeration tank 2 with oxygen, an aeration system is used, including a second circulation pump 8, which takes out the sludge mixture from the aeration tank 2 through valve 53 through a pipe 19 connected to the suction manifold 17, a pressure manifold 18 and a supply pipe 25 with a valve 52 and with an air ejector 26, on the air nozzle of which there is a regulating element-valve 42.

As a result of the intensive movement of wastewater with activated sludge and atmospheric oxygen, biochemical oxidation of organic substances and nitrification of ammonium nitrogen occur.

The separation of activated sludge from waste water occurs in two stages. Most of the sludge is separated in a thin-layer sludge separator 3. The final sludge separation (sedimentation) is carried out in the settler 4 of the vertical type.

Along with the separation in sludge separator 3, denitrification of wastewater containing nitrates occurs, resulting from the nitrification (oxidation) of ammonium nitrogen.

From the cone-shaped bins in the lower part of the sump 4, recirculating sludge is taken through a pipe 20 connected through a valve 56 to the suction manifold 17 of the second circulation pump 8.

The settled water is collected from the surface of the sump by trays in the form of hole pipes (not shown in the drawing) and through the overflow 35 in the partition 36 enters the superfilter space of the filter 5.

When passing by gravity from top to bottom through the load of the filter 44 (expanded polystyrene), there is a post-treatment of water from the residues of suspended sludge, organic and nitrogen-containing compounds.

The purified water through the drain pipe 22, the valve 58, the pipe 37 and the cyclone device 38 enters the disinfector 6, from which it enters the water inlet (not shown) through the pipe 40.

In the cyclone device 38, water is saturated with oxygen, which is determined by the requirements of the MPC of oxygen in the purified water. In addition, the presence of oxygen increases the cleaning efficiency of the disinfectant 6.

The recirculated sludge from the sump 4 is taken from the collector 17 by the recirculation pump 24, and through the pipe 32, through the valve 50, the water meter 28 and the valve 48 are sent through the pipe 31 to the aerotank 2. The recirculated sludge through the pipe 29 and the valve 45 can be directed to the averager 1, as well as through pipeline 30 and valve 49 to the sludge collector.

The installation also provides for the possibility of mixing recirculated sludge with circulating sludge through a collector 17 and supplying their mixture through a water meter 28 to aeration tank 2, averaging device 1 and the sludge collector.

The presence of the valve 41 on the air pipe of the ejector 14, installed in the averager 1, allows you to use the averager 1 as a pre-aerator (with a high content of organic impurities at the inlet) - the valve 41 must be fully open, or as a denitrifier with a high content of nitrates in the purified water. In this case, the valve 41 must be closed and recirculated sludge through the pipe 29 must be supplied to the averager 1.

The advantages of the installation are:

-decrease in size due to the combination of the averager of the water flow with an anaerobic reactor and the placement of a pressure quench chamber with sand traps in it;

-deep biochemical oxidation of organic and nitrogen-containing compounds;

-no need for consumables - chemical reagents;

The unit is manufactured in the factory version in the form of a metal container, small in size, has a small mass, which facilitates its installation, and can be transported by road, rail and sea.

Sources of information:

1. RF patent No. 785225, M. Cl. C02F 3/12, published. 1980.

2. RF patent No. 1710525, M.C. CO2 F 3/30, published. 1992

3. RF patent No. 1794060, M. Cl. CO2 F 3/28, published. 1993 year

Claims (11)

1. Installation for wastewater treatment, comprising a quench chamber, a flow averager, aeration tank, a settling tank, a loading filter and a disinfectant, partitions, pipelines and pumps, while the sewage supply pipe is connected to the inlet of the water flow averager, and the drain pipe is cleaned water is connected to the outlet of the disinfectant, characterized in that in it the damping chamber of the water pressure is located in the averager of the water flow, the aeration tank is connected through a thin-layer sludge separator to the sump, which is connected through direct grinding corresponding to a partition with a filter associated with the decontaminating agent, wherein the averager water flow system equipped with a hydraulic mixing comprising a first pump, the corresponding piping and water-air ejector aeration tank is equipped with an aeration system consisting of the second pump with appropriate conduits and water-air ejector. 2. The wastewater treatment plant according to claim 1, characterized in that in the hydraulic mixing system, the inlet of the first circulation pump is connected to a suction pipe for withdrawing wastewater from the averager, and the outlet of said pump is connected to a pipeline for returning a part of the wastewater to the averager and a supply pipe sewage in aeration tank. 3. Installation for wastewater treatment according to claim 1, characterized in that the first water meter is installed on the water supply pipe from the averager to the aeration tank. 4. The wastewater treatment plant according to claim 1, characterized in that in the aeration system the inlet of the second circulation pump is connected to a suction collector to which a sludge recirculation pipe from the sump and a wash water pipe connected to the filter outlet are connected. 5. The wastewater treatment plant according to claim 1, characterized in that in the aeration system a discharge pipe for the excess sludge and a pipe for supplying part of the sludge to the averager are connected to the pressure pipe of the second circulation pump. 6. Installation for wastewater treatment according to claim 1, characterized in that a cyclone device is installed between the filter and the disinfectant. 7. Installation for wastewater treatment according to claim 1, characterized in that it contains sand traps located in the averager. 8. The wastewater treatment plant according to claim 1, characterized in that a trellised container is installed in the quench chamber. 9. The wastewater treatment plant according to claim 1, characterized in that a recirculation pump is connected to the suction manifold of the second circulation pump. 10. Installation for wastewater treatment according to claim 1, characterized in that on the air pipes of the water-air ejectors installed control elements, for example, valves. 11. The wastewater treatment plant according to claim 1, characterized in that a second water meter is installed in front of the recirculating sludge supply pipes to the aeration tank and the averager.